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3D Magnetothermal Simulations of Tangled Crustal Magnetic Field in Central Compact Objects

Andrei P. Igoshev, Konstantinos N. Gourgouliatos, Rainer Hollerbach, Toby S. Wood

2021The Astrophysical Journal27 citationsDOIOpen Access PDF

Abstract

Abstract Central compact objects (CCOs) are young neutron stars emitting thermal X-rays with bolometric luminosities L X in the range of 10 32 –10 34 erg s −1 . Gourgouliatos, Hollerbach, and Igoshev recently suggested that peculiar emission properties of CCOs can be explained by tangled magnetic field configurations formed in a stochastic dynamo during the proto–neutron star stage. In this case the magnetic field consists of multiple small-scale components with negligible contribution of global dipolar field. We study numerically three-dimensional magnetothermal evolution of tangled crustal magnetic fields in neutron stars. We find that all configurations produce complicated surface thermal patterns that consist of multiple small hot regions located at significant separations from each other. The configurations with initial magnetic energy of (2.5–10) × 10 47 erg have temperatures of hot regions that reach ≈ 0.2 keV, to be compared with the bulk temperature of ≈ 0.1 keV in our simulations with no cooling. A factor of two in temperature is also seen in observations of CCOs. The hot spots produce periodic modulations in light curve with typical amplitudes of ≤9%–11%. Therefore, the tangled magnetic field configuration can explain thermal emission properties of some CCOs.

Topics & Concepts

PhysicsMagnetic fieldNeutron starAstrophysicsDynamoThermalDipoleMagnetic dipoleComputational physicsAmplitudeMagnetarMagnetic energyField (mathematics)L-shellBolometerDipole model of the Earth's magnetic fieldStarsMagnetohydrodynamicsHot spot (computer programming)PlasmaMagnetic structureRange (aeronautics)Condensed matter physicsMercury's magnetic fieldDynamo theoryThermal energyDissipationNeutronScalingThermal emissionPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsAstrophysics and Star Formation Studies